Catalytic Fluoroalkylation Reactions of Alkoxy‐substituted (Hetero)Arenes

Yerien, Damian E.; Lantaño, Beatríz; Barata‐Vallejo, Sebastián; Postigo, Al

doi:10.1002/cctc.202100997

Cited by 7 publications

(9 citation statements)

References 39 publications

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“…[12][13][14] Molecules with trifluoromethyl groups represent a unique class of fluorinated compounds that find their utility not only in the academic community but also in their prevalence in a variety of agrochemical and pharmaceutical drugs (Scheme 1). [15][16][17][18] The introduction of a CF 3 group into organic molecules has been quite prominent in the last decade, with some outlining the electronic nature of the recruited reagents, which can be radical, electrophilic or nucleophilic (Scheme 2), while others have focussed on the use of catalysts, the stereoselectivity of reactions, or the type of bonds that are deposited in trifluoromethylation reactions. [19][20][21][22][23][24][25][26][27][28][29][30][31][32] In recent years, numerous reports of trifluoromethylation of hydrocarbons and heteroarenes have appeared using various transition metal complexes.…”

Section: Introduction To Trifluoromethylationmentioning

confidence: 99%

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Recent advances in transition metal-mediated trifluoromethylation reactions

et al. 2022

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Section: Introduction To Trifluoromethylationmentioning

confidence: 99%

“…12–14 Molecules with trifluoromethyl groups represent a unique class of fluorinated compounds that find their utility not only in the academic community but also in their prevalence in a variety of agrochemical and pharmaceutical drugs (Scheme 1). 15–18…”

Section: Introduction To Trifluoromethylationmentioning

confidence: 99%

Recent advances in transition metal-mediated trifluoromethylation reactions

et al. 2022

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“…To verify the generation of perfluoroalkyl radicals from compounds 1, we conducted an experiment with perfluorohexyl analogue 1b and 1,1-diphenylethylene (7) as a radical trapping agent (Scheme 4). Gratifyingly we observed the formation of 2-(perfluorohexyl)-1,1-diphenylethylene (8), and propiophenone through GC-MS analysis. Additionally, the presence of free SO 2 gas was confirmed by the reaction of acidic potassium dichromate solution on paper (green coloration of the exposed surface).…”

Section: Resultsmentioning

confidence: 75%

“…Given their importance, multiple synthetic methodologies for the introduction of long perfluorinated chains into aromatic rings have been developed since the first reports of such transformation by George Tiers in 1960, and McLoughlin and Thrower in 1969 [2,3]. Most approaches have made extensive use of organometallic chemistry, radical initiators, photocatalysis, electrochemistry, and more sophisticated platforms such as metal nanoparticles, all of which have been reviewed thoroughly in the literature [4][5][6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of α-(perfluoroalkylsulfonyl)propiophenones: a new set of reagents for the light-mediated perfluoroalkylation of aromatics

Castillo-Pazos¹,

Lasso²,

Li³

2022

Beilstein J. Org. Chem.

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In response to the demand for late-stage perfluoroalkylation in synthetic chemistry, we report the synthesis of a series of bench-stable α-(perfluoroalkylsulfonyl)propiophenones. Their application as photocleavable reagents was tested with electron-rich aromatics under metal-free, redox- and pH-neutral conditions to enable late-stage perfluorooctylation, perfluorohexylation, and perfluorobutylation.

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“…[20][21][22] In 2012, Buck et al updated this summarizing progress from 2000 to 2010. [23] In more recent accounts, [24][25][26][27][28][29][30][31][32][33][34][35][36][37][38] fluoroalkyl iodides appear only in the context of other fluorinating agents and/or type of transformation under review. Furthermore, in 2022, use of perfluoroalkyl halides for photo-induced perfluoroalkylation was reviewed.…”

Section: Introductionmentioning

confidence: 99%

Fluoroalkyl Iodides in Fluoroalkylative Difunctionalization of C−C Multiple Bonds

Lucio‐Martínez

Chaładaj

2023

Adv Synth Catal

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Fluorinated alkyl iodides serve as a convenient and inexpensive source of fluoroalkyl radicals that can readily undergo addition to the CÀ C unsaturated bonds of alkynes and alkenes which is the foundation for a variety of useful synthetic protocols. Since 2010 this field has witnessed huge progress in several respects. First the portfolio of fluorinated alkyl iodides was extended beyond only simple perfluoroalkyl iodides (C n F 2n + 1 I). In particular, employment of iododifluoroÀ methyl-carbonyls and phosphonates has enabled facile installation of the medicinally relevant difluoromethylene motif. Secondly, from a conceptual point of view, novel strategies for activation of fluoroalkyl iodides towards radical formation have been introduced, relying on the formation of electron donor-acceptor (EDA) complexes, photoredox catalysis, frustrated Lewis pairs and transition metal catalysis, complementing prior approaches based on heat and UV induced CÀ I homolysis, radical initiators, and simple electron transfer processes. Based on these strategies a range of novel fluoroalkylative transformations of unsaturated systems have been added to classical iodoperfluoroalkylation. Broadly applicable protocols for simple fluoroalkylation and hydrofluoroalkylation, as well as for more sophisticated, complexitybuilding methods of fluoroalkylation-annulation and tandem multicomponent fluoroalkylations with concomitant installation of another functionality have been recently disclosed. This review summarizes the progress achieved since 2010 in the reactivity of fluoroalkyl iodides towards alkenes and alkynes with emphasis placed on the above-mentioned advances.1.

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Catalytic Fluoroalkylation Reactions of Alkoxy‐substituted (Hetero)Arenes

Cited by 7 publications

References 39 publications

Recent advances in transition metal-mediated trifluoromethylation reactions

Recent advances in transition metal-mediated trifluoromethylation reactions

Synthesis of α-(perfluoroalkylsulfonyl)propiophenones: a new set of reagents for the light-mediated perfluoroalkylation of aromatics

Fluoroalkyl Iodides in Fluoroalkylative Difunctionalization of C−C Multiple Bonds

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